Purification and characterization of prolyl endopeptidase from the Pacific herring, Clupea pallasi, and its role in the activation of sperm motility

Protease activities with specificity toward synthetic substrates, Suc-Gly-Pro-Leu-Gly-Pro-MCA for prolyl endopeptidase or collagenase-like peptidase, and Suc-Ala-Ala-Pro-Phe-MCA for chymotrypsin were identified in the detergent-soluble fraction of herring spermatozoa. The enzyme activities increased in the presence of herring sperm-activating protein (HSAP). Among them a prolyl endopeptidase [EC. 3. 4. 21. 26] was purified to near homogeneity from herring testis. The molecular mass of the enzyme was 79 kDa and the properties of the enzyme were quite similar to prolyl endopeptidase from other tissues or cells. Both the enzyme activation and the sperm motility activation by HSAP were inhibited by benzyloxycarbonyl-L-thioproline-thioprolinal, a specific inhibitor for prolyl endopeptidase. Furthermore, the motility activation by HSAP was inhibited by substrates of the prolyl endopeptidase. Western blotting with mouse anti-prolyl endopeptidase serum revealed the presence of 79 kDa prolyl endopeptidase in the tail fraction of herring sperm. These results suggest that prolyl endopeptidase exists on the surface of the sperm tail and interacts with the HSAP.     

Prolyl Endopeptidase: Inhibition In Vivo by N-Benzyloxycarbonyl-Prolyl-Prolinal

The activity of prolyl endopeptidase in homogenates of mouse tissues was determined 30 min after intraperitoneal injection of N-benzyloxycarbonyl-prolyl-prolinal (1.25 mg/kg), a potent transition state analog inhibitor (K1 = 14 nM) of prolyl endopeptidase (EC 3.4.21.26). A more than 85% decrease of enzyme activity was obtained in all tissues. The in vivo degradation of potential prolyl endopeptidase substrates was studied by following the release of sulfamethoxazole from N-benzyloxycarbonylglycyl-prolyl-sulfamethoxazole, a model synthetic substrate of the enzyme. When this substrate was given intraperitoneally, its enzymatic degradation was blocked after administration of the inhibitor in a dose- and time-dependent manner, indicating inhibition of the enzyme in vivo. Of interest is the long duration of the inhibition. After a relatively low inhibitor dose (5 mg/kg) significant inhibition was seen in most tissues even after 6 h. The brain was particularly sensitive to the effect of the inhibitor. Since prolyl endopeptidase readily degrades many proline-containing neuropeptides, the inhibitor should be of value in studies on the role of the enzyme in neuropeptide metabolism.     

Possible involvement of aminopeptidase, an ecto-enzyme, in the inactivation of bradykinin by intact neutrophils

The subcellular localization of the bradykinin-inactivating activity was studied using guinea-pig neutrophils and the following results were obtained. The bradykinin-inactivating activities were found to be present in the cytosol and membrane fractions but not in the granular and nuclear fractions. The bradykinin-inactivating activity of the cytosol fraction was inhibited by N-carbobenzoxy-Gly-Pro, an inhibitor of prolyl endopeptidase, whereas that of the membrane fraction was inhibited by bestatin, an inhibitor of aminopeptidase. Prolyl endopeptidase and aminopeptidase activities were located predominantly in the cytosol and membrane fractions, respectively, and their activities were inhibited by their respective inhibitors. Prolyl endopeptidase and aminopeptidase activities measured with synthetic substrates were competitively inhibited by bradykinin, suggesting that bradykinin is a possible substrate for prolyl endopeptidase and aminopeptidase. Intact neutrophils inactivated bradykinin rapidly. However, when neutrophils were modified chemically by diazotized sulfanilic acid, a poorly permeant reagent which inactivates ecto-enzymes selectively, both the bradykinin-inactivating activity and aminopeptidase activity of neutrophils decreased significantly without any inhibition of cytosol prolyl endopeptidase. The possibility that aminopeptidase, an ecto-enzyme, would be responsible for the inactivation of bradykinin by intact neutrophils was deduced from the results above, although both cytosol prolyl endopeptidase and membrane aminopeptidase could inactivate bradykinin.     

Inhibition of Rabbit Brain Prolyl Endopeptidase by N-Benzyloxycarbonyl-Prolyl-Prolinal, a Transition State Aldehyde Inhibitor

Prolyl endopeptidase cleaves peptide bonds on the carboxyl side of proline residues within a peptide chain. The enzyme readily degrades a number of neuropeptides including substance P, neurotensin, thyrotropin-releasing hormone, and luteinizing hormone-releasing hormone. The finding that the enzyme is inhibited by benzyloxycarbonyl-prolyl-proline, with a Ki of 50 microM, prompted the synthesis of benzyloxycarbonyl-prolyl-prolinal as a potential transition state analog inhibitor. Rabbit brain prolyl endopeptidase was purified to homogeneity for these studies. The aldehyde was found to be a remarkably potent inhibitor of prolyl endopeptidase with a Ki of 14 nM. This Ki is more than 3000 times lower than that of the corresponding acid or alcohol. By analogy with other transition state inhibitors, it can be assumed that binding of the prolinal residue to the S1 subsite and the formation of a hemiacetal with the active serine of the enzyme greatly contribute to the potency of inhibition. The specificity of the inhibitor is indicated by the finding that a variety of proteases were not affected at concentrations 150 times greater than the Ki for prolyl endopeptidase. The data indicate that benzyloxycarbonyl-prolyl-prolinal is a specific and potent inhibitor of prolyl endopeptidase and that consequently it should be of value in in vivo studies on the physiological role of the enzyme.     

Regulation of prolyl endopeptidase activity by the intracellular redox state

The activity of prolyl endopeptidase was markedly decreased during incubation of intact murine erythroleukemia cells at 45 degrees C, but not during incubation of sonicated cells or during incubation at 42 degrees C. The thermal inactivation of prolyl endopeptidase in situ required neither the synthesis of proteins and polynucleotides nor the synergistic activation of inhibitors. Moreover, inhibition of lysosomal proteinases and calpains or depletion of ATP did not affect the thermal inactivation of prolyl endopeptidase. This specific inactivation of prolyl endopeptidase was also observed following the addition to the culture medium of menadione or diamide, compounds known to increase intracellular oxidized glutathione levels. The activity of prolyl endopeptidase in the cell lysate was also dose-dependently decreased by the addition of glutathione disulfide and the decrease of the activity was prevented by coexistence of reduced glutathione. Furthermore, the level of intracellular oxidized glutathione was increased during incubation at 45 degrees C for 15 min, but not at 42 degrees C for 30 min. These results strongly suggest that the activity of prolyl endopeptidase is regulated by changes in the intracellular redox potential.     

Engineering a thermostable human prolyl endopeptidase for antibody-directed enzyme prodrug therapy

We present a new antibody-directed enzyme prodrug therapy strategy (ADEPT) based on a post-proline cleaving endopeptidase and prodrugs, in which cytotoxic moieties are linked to a proline-containing peptide. Human prolyl endopeptidase was expressed in Escherichia coli and purified to homogeneity. The enzyme was active in buffer and in human serum but was rapidly thermally inactivated by incubation at 37 degrees C, thus preventing applications in vivo. While prolyl endopeptidase display on filamentous phage abolished viral infectivity and prevented directed evolution strategies based on phage display, we robotically screened 10752 individual colonies of mutant enzymes using a fluorogenic assay to improve enzyme stability. A single amino acid mutation (Glu289 --> Gly) improved protein stability, resulting in a half-life of 16 h at 37 degrees C in phosphate buffer. Two prodrugs were synthesized, in which an N-protected glycine-proline dipeptide was covalently coupled to doxorubicin and melphalan. (Benzyloxycarbonyl)glycylprolylmelphalan, but not the more sterically hindered doxorubicin prodrug, could be efficiently activated by prolyl endopeptidase [specific activity = 813.3 nmol min(-1) (mg of enzyme)(-1) at 25 degrees C]. The melphalan prodrug was essentially nontoxic to CHO, F9 teratocarcinoma, MCF7 breast adenocarcinoma, and p3U1 mouse myeloma cells up to millimolar concentrations, while prodrug incubation with the engineered prolyl endopeptidase mutant led to a cell killing profile superimposable to the one of melphalan. The prolyl endopeptidase mutant was then chemically coupled to the human antibody L19, specific to the EDB domain of fibronectin, a marker of angiogenesis. The resulting immunoconjugate retains antigen binding and enzymatic activity, thus opening the way to anticancer ADEPT applications.     

A prolyl endopeptidase from murine macrophages, its assay and specific inactivation

The presence of a prolyl endopeptidase in the soluble fraction of murine peritoneal macrophages is reported. The prolyl endopeptidase is apparently highly specific for cleaving peptides after proline residues. A sensitive new fluorogenic assay substrate matching this specificity, benzyloxycarbonyl-Ala-Ala-Pro beta-methoxynaphthylamide, is described. The enzyme is rapidly inactivated by benzyloxycarbonyl-Ala-Ala-Pro diazomethyl ketone, one of a class of reagents specific for cysteine proteinases, and by diisopropyl fluorophosphate, an inhibitor of serine proteinases. Culture of macrophages with the addition of low levels of benzyloxycarbonyl-Ala-Ala-Pro diazomethyl ketone to the media allows the selective inhibition of the cytoplasmic enzyme as measured in lysates at the termination of culture. After exposure to inhibitor, macrophages resynthesize the enzyme over a period of days, a process which is inhibited by cycloheximide. Similar amounts of activity were found in both normal peritoneal macrophages and those elicited by prior injection of thioglycollate media. The enzyme from murine macrophages appears similar to that reported in bronchopulmonary lavage fluid and lung tissue and to those isolated from brain and pituitary tissues.     

Distribution of prolyl endopeptidase activities in rat and human brain.

Prolyl endopeptidase is a proteolytic enzyme which could have a neuropeptide catabolising role in the central nervous system. Although prolyl endopeptidase has been described as a cytosolic enzyme, it has become clear that it can also be found in particulate form. The regional and subcellular distribution of this enzyme was evaluated in rat and human brain. The activity of the enzyme was higher in the human than in the rat brain. In the human brain, the activity levels of both soluble and particulate prolyl endopeptidase were the highest in frontal, parietal and occipital cortices and the lowest in the cerebellum. In the rat brain, the regional distribution of the enzyme was more homogeneous. The activity in all the areas of the central nervous system is higher than in peripheral tissues. Subcellular distribution of the enzyme in the brain indicates that prolyl endopeptidase was higher in the cytosolic fraction than in the particulate fractions. The particulate form was enriched in the synaptosomal and the myelinic membranes. The high activity of prolyl endopeptidase in the human cortex suggests that prolyl endopeptidase could play a role in the functions of this brain area.     

Changes in proteinase activities during the differentiation of murine erythroleukemia cells

Changes in intracellular proteinase activities were examined during DMSO-induced differentiation of murine erythroleukemia cells. Suc-APA-MCA hydrolytic activity was significantly decreased, and apparent ATP-dependent multicatalytic proteinase activity was also decreased with MEL cell differentiation. Cathepsin B and L activity was mainly present in the microsomal fraction of control cells, but a part of this activity had shifted to the lysosomal fraction of differentiated cells. With the translocation of cathepsin B from the microsomal to the lysosomal fraction, the pro-enzyme form of cathepsin B was converted into the mature enzyme. These results suggest that the lysosomal pathway contributes to the degradation of specific proteins with cell differentiation.     

Proline-specific endopeptidases from microbial sources: isolation of an enzyme from a Xanthomonas sp.

An extensive screening among microorganisms for the presence of post-proline-specific endopeptidase activity was performed. This activity was found among ordinary bacteria from soil samples but not among fungi and actinomycetes. This result is in contrast to the previous notion that this activity is confined to the genus Flavobacterium. A proline endopeptidase was isolated from a Xanthomonas sp. and characterized with respect to physicochemical and enzymatic properties. The enzyme is composed of a single peptide chain with a molecular weight of 75,000. The isoelectric point is 6.2. It is inhibited by diisopropylfluorophosphate and may therefore be classified as a serine endopeptidase. The activity profile is bell shaped with an optimum at pH 7.5. By using synthetic peptide substrates and intramolecular fluorescence quenching it was possible to study the influence of substrate structure on the rate of hydrolysis. The enzyme specifically hydrolyzed Pro-X peptide bonds. With Glu at position X, low rates of hydrolysis were observed; otherwise the enzyme exhibited little preference for particular amino acid residues at position X. A similar substrate preference was observed with respect to the amino acid residue preceding the prolyl residue in the substrate. The enzyme required a minimum of two amino acid residues toward the N terminus from the scissile bond, but further elongation of the peptide chain by up to six amino acid residues caused only a threefold increase in the rate of hydrolysis. Attempts to cleave at the prolyl residues in oxidized RNase failed, indicating that the enzyme does not hydrolyze long peptides, a peculiar property it shares with other proline-specific endopeptidases.     

Purification and characterization of a prolyl endopeptidase isolated from Aspergillus oryzae

A new fungal strain that was isolated from our library was identified as an Aspergillus oryzae and noted to produce a novel proly endopeptidase. The enzyme was isolated, purified, and characterized. The molecular mass of the prolyl endopeptidase was estimated to be 60 kDa by using SDS-PAGE. Further biochemical characterization assays revealed that the enzyme attained optimal activity at pH 4.0 with acid pH stability from 3.0 to 5.0. Its optimum temperature was 30 °C and residual activity after 30 min incubation at 55 °C was higher than 80 %. The enzyme was activated and stabilized by Ca²⁺ but inhibited by EDTA (10 mM) and Cu²⁺. The K _m and k _cat values of the purified enzyme for different length substrates were also evaluated, and the results imply that the enzyme from A. oryzae possesses higher affinity for the larger substrates. Furthermore, this paper demonstrates for the first time that a prolyl endopeptidase purified from A. oryzae is able to hydrolyze intact casein.     

Neuropeptide-Metabolizing Peptidases in Neuro-2a Neuroblastoma and C6 Glioma Cells

Mouse Neuro-2a neuroblastoma and rat C6 glioma cloned cells were screened for neuropeptide-metabolizing peptidases using a kininase bioassay combined with a time-course bradykinin-product analysis, and a fluorimetric assay for prolyl endopeptidase. The complementary peptide products Arg1----Phe5/Ser6----Arg9 and Arg1----Pro7/Phe8-Arg9 were released during bradykinin (Arg1-Pro2-Pro3-Gly4-Phe5-Ser6-Pro7-Phe8-Arg9) inactivation by homogenates of Neuro-2a and C6 cells. The 1:1 stoichiometry of the complementary fragments and their high yields, at 10% bradykinin inactivation, demonstrated the sites of hydrolysis. The initial rate of Phe5-Ser6 bond cleavage was six-fold higher than that of the Pro7-Phe8 bond. These sites of cleavage can be attributed to enzymes similar to endopeptidase A (Phe5-Ser6) and prolyl endopeptidase (Pro7-Phe8) on the basis of the specificity and sensitivity to inhibitors of the kininase activity in Neuro-2a and C6 cell homogenates. Kininase and prolyl endopeptidase specific activities (fmol/min/cell) were 10.5 and 12.4 for Neuro-2a, and 1.5 and 2 for C6 homogenate, respectively. The recovery of kininase activity was 2.2-fold higher in the particulate than in the soluble (105,000 g for 1 h) neuronal fraction, whereas the amount of prolyl endopeptidase activity was about the same in both fractions. Kininase and prolyl endopeptidase activities in C6 cells were recovered mostly in the soluble fraction. Prolyl endopeptidase specific activity decreased 10-fold in serum-starved Neuro-2a cultured cells, with no change in activity in similarly treated C6 cells. In contrast, kininase specific activity in both cell types was essentially unaffected on serum-deprivation-induced differentiation.     

Characterization of a prolyl endopeptidase (kininase) from human urine using fluorogenic quenched substrates

A prolyl endopeptidase (PE) was purified 83 times from human urine by DEAE-cellulose and Sepharose Mercurial chromatographies. In this work we studied the specificity of PE using different fluorogenics substrates. Further characterization of the enzyme was carried out using BK and it's analogue, Abz-RPPGFSPFRQ-EDDnp and Abz-FPQ-EDDnp, for measure of enzymatic activity of prolyl endopeptidase (Abz=ortho-aminobenzoic acid; EDDnp=N-[2, 4-dinitrophenyl]ethylenediamine). The substrate Abz-FPQ-EDDnp was considered as specific for PE. The endopeptidase PE, with a molecular weight of 45 kDa, was inhibited 100% by EDTA and pOHMB and resistant to PMSF, thyorphan, E64 and phosphoramidon, when we used the mentioned substrates. These results suggest that PE is a metallo endopeptidase that contains a thiol group important for it's activity. It was also able to hydrolyze in Abz-RPPGFSPFRQ-EDDnp the F-R peptide bound, differing from those obtained upon BK molecule, where the enzyme prefer the peptide bound located after double proline. In the substrate Abz-FPQ-EDDnp PE hydrolyzes the P-Q peptide bound. Furthermore the urinary PE is particularly unable to hydrolyze peptides with single prolines such as substance P, neurotensin and LHRH. The determined K(m) for Abz-RPPGFSPFRQ-EDDnp and Abz-FPQ-EDDnp were 0.74 and 0.65 uM, respectively. The optimum pH for the PE activity, using the substrate Abz-RPPGFSPFRQ-EDDnp was approximately 9.0, but using the specific substrate Abz-FPQ-EDDnp was 6.5 and 8.0. Endopeptidases, which are situated at brush border surface from proximal tubules, have an important role in kidney handling of many peptides, which are filtered by the glomerulus. The prolyl endopeptidase located at distal tubule could have an important physiological function in control of kinin formed in this portion. It's known that all components from kallicrein-kinin system like low molecular weigh kininogen and kallikrein are presents in this portion.     

烟曲霉脯氨酰内肽酶在巴斯德毕赤酵母中的分泌表达与重组酶性质

【目的】研究烟曲霉脯氨酰内肽酶cDNA基因的异源表达及重组酶性质。【方法】以烟曲霉CICIM F0044总RNA为模板,反转录合成cDNA;再以cDNA为模板,通过PCR扩增去除自身信号肽的脯氨酰内肽酶基因,构建表达载体pPIC9K-PEP;电转化酵母宿主菌Pichia pastoris GS115,获得重组菌PEP-09;纯化并分析重组酶性质。【结果】重组菌摇瓶发酵酶活力最高可达647.3 U/L。表达产物纯化后的分子量为63 kD左右。重组酶最适反应温度为65°C,有较好的温度稳定性,在55°C保温8 h能保留90%以上的酶活力。该酶最适pH为5.5,在pH 3.0 9.0范围内有很好稳定性,在pH 6.0 8.0的缓冲液中37°C保温10 d酶活没有明显变化。【结论】烟曲霉脯氨酰内肽酶cDNA基因在巴斯德毕赤酵母中实现了分泌表达,重组酶活性稳定,有一定的应用潜力。     

Slow tight-binding inhibition of prolyl endopeptidase by benzyloxycarbonyl-prolyl-prolinal.

Prolyl endopeptidase is a serine proteinase that specifically cleaves peptides on the carboxy side of proline residues. Wilk & Orlowski [(1983) J. Neurochem. 41, 69-75] have shown that benzyloxycarbonyl-prolyl-prolinal (Z-prolyl-prolinal) is a potent inhibitor of prolyl endopeptidase. We show that Z-prolyl-prolinal is a slow-binding inhibitor of mouse brain prolyl endopeptidase with Ki 0.35 +/- 0.05 nM. Kinetic analysis indicates that the mechanism is a simple, but slow, reversible equilibrium between free and bound enzyme (E + I in equilibrium EI) with rate constants for association (kon) and dissociation (koff) of 1.6 X 10(5) M-1.s-1 and approx. 4 X 10(-5) s-1 respectively. Slow-binding inhibition is dependent on the presence of the aldehyde group since the alcohol (Z-prolyl-prolinol) is a rapid and 50,000-fold poorer inhibitor (Ki 19 microM). Prolyl endopeptidase from human brain is also inhibited by Z-prolyl-prolinal with kinetics similar to those of the mouse brain enzyme.     

Thiazolidine derivatives as potent inhibitors specific for prolyl endopeptidase

A series of N-blocked L-proline-containing compounds and their derivatives were synthesized. Their inhibitory activities for prolyl endopeptidase from bovine brain were examined and compared with that of N-benzyloxycarbonyl-L-prolyl-L-prolinal, which is the most effective enzyme inhibitor hitherto reported. Introduction of a sulfur atom into pyrrolidine ring quite effectively increased the inhibitory activity: replacement of pyrrolidine with thiazolidine or thiazolidine aldehyde (thioprolinal) and conversion of L-proline to L-thioproline residue resulted in increase in the inhibitory activity. Thus, N-benzyloxycarbonyl-L-thioprolyl-thiazolidine (Z-Thiopro-thiazolidine) and Z-L-Thiopro-L-thioprolinal showed Ki values of 0.36 and 0.01 nM, respectively, for prolyl endopeptidase from bovine brain; both values were significantly lower than that of Z-Pro-prolinal (Ki, 3.7 nM).     

PURIFICATION AND PROPERTIES OF A PROLYL ENDOPEPTIDASE FROM RABBIT BRAIN

Abstract— An enzyme with the specificity of a prolyl endopeptidase was purified about 880-fold from rabbit brain. The enzyme hydrolyzes peptidylprolyl-peptide and peptidylprolyl-amino acid bonds. Several biologically active peptides such as angiotensin, bradykinin, neurotensin. substance P and thyrotropin releasing hormone are degraded by hydrolysis of the bond between the carboxyl group of proline and the adjacent amino acid or ammonia respectively. The enzyme is activated by dithiothreitol and inhibited by heavy metals and thiol blocking agents. The serine protease inhibitor phenylmethanesulfonylfluoride has no effect on activity; however, inhibition was obtained with diisopropylfluorophosphate. Prolyl endopeptidase has a molecular weight of about 66,000 and a pH optimum of about 8.3. A new chromogenic substrate, N -benzyloxycarbonylglycyl-L-prolylsulfamethoxazole, was used for determination of enzyme activity. The substrate is hydrolyzed to N -benzyloxycarbonylglycyl-L-proline and free sulfamethoxazole which can be conveniently determined by a colorimetric procedure.     

Studies on prolyl endopeptidase from shakashimeji (Lyophyllum cinerascens): purification and enzymatic properties

High prolyl endopeptidase (post-proline cleaving enzyme) [EC 3.4.21.26] activity was detected in fruit bodies of shakashimeji (Lyophyllum cinerascens), tsukuritake (mushroom: Agaricus bisporus), hirohachichitake (Lactarius hygrophoroides), and yaburebenitake (Russula lepida) which belong to the genus Basidiomycetes. Cell-free extract of shakashimeji showed high activities of proline iminopeptidase and arylamidase as well as prolyl endopeptidase. The prolyl endopeptidase was purified from the extract of shakashimeji by sequential chromatographies on DEAE-Toyopearl, DEAE-Sephadex and hydroxyapatite, and high-performance liquid chromatography with a DEAE-5PW column. The purified enzyme was homogeneous as judged by disc gel electrophoresis. The enzyme was most active at pH 6.8 as checked with Z-Gly-Pro-beta-naphthylamide as a substrate and was stable in the range of pH 5.8-7.4. The isoelectric point of the enzyme was 5.2 and the molecular weight was estimated to be 76,000 by gel filtration on Sephadex G-150 and by sodium dodecyl sulfate (SDS) gel electrophoresis, suggesting that the enzyme was a monomer. The enzyme was completely inhibited by diisopropyl fluorophosphate (DFP), Z-Gly-Pro-CH2Cl, and Z-Pro-prolinal, while it was not inhibited by p-chloromercuribenzoate (PCMB), phenylmethylsulfonyl fluoride (PMSF), or metal chelators. It was estimated that at least five subsites were concerned with the enzyme-substrate binding. Among them, the S1, S2, and S1' sites showed high stereospecificity, as in mammalian, microbial, and plant enzymes. The enzyme hydrolyzed TRH at the carboxyl side of the proline residue. The mushroom enzyme, that was sensitive to DFP, Z-Pro-prolinal, and Z-Gly-Pro-CH2Cl, but not to PCMB, were quite similar in characteristics to the Flavobacterium enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)     

A Kazal prolyl endopeptidase inhibitor isolated from the skin of Phyllomedusa sauvagii.

Searching for bioactive peptides, we analyzed acidic extracts of Phyllomedusa sauvagii skin and found two new proteins, PSKP-1 and PSKP-2, of 6.7 and 6.6 kDa, respectively, which, by sequence homology, belong to the Kazal family of serine protease inhibitors. PSKP-1 and PSKP-2 exhibit the unprecedented feature of having proline at P(1) and P(2) positions. A gene encoding PSKP-1 was synthesized and expressed in Escherichia coli. Recombinant PSKP-1 was purified from inclusion bodies, oxidatively refolded to the native state, and characterized by chemical, hydrodynamic and optical studies. PSKP-1 shows inhibitory activity against a serum prolyl endopeptidase, but is unable to inhibit trypsin, chymotrypsin, V8 protease, or proteinase K. In addition, PSKP-1 can be rendered active against trypsin by active-site site-specific mutagenesis, has bactericidal activity, and induces agglutination of red cells at micromolar concentrations. PSKP-1 might protect P. sauvagii teguments from microbial invasion, by acting as an inhibitor of an as-yet unidentified prolyl endopeptidase or directly as a microbicidal compound.     

Study on a prolyl endopeptidase from the skeletal muscle of common carp (Cyprinus carpio)

A prolyl endopeptidase (PEP) was purified to homogeneity from the skeletal muscle of common carp using a procedure involving ammonium sulfate fractionation and column chromatography involving DEAE-Sephacel, Phenyl-Sepharose, DEAE-Sepharose Fast Flow, and hydroxyapatite. The molecular weight of the PEP was 82 kDa as determined by SDS-PAGE. Using Suc-Gly-Pro-MCA as a substrate, the optimal pH and temperature of the purified enzyme were pH 6.0 and 35 °C, respectively, and the K_m and k_cat were 8.33 μM and 1.71 S^?1, respectively. The activity of the PEP was inhibited by SUAM-14746, a specific inhibitor of prolyl endopeptidases, and was partially inhibited by the serine proteinase inhibitors PMSF and Pefabloc SC. According to peptide mass fingerprinting, 12 peptide fragments with a total of 134 amino acid residues were obtained, which were highly identical to prolyl endopeptidases from zebrafish (Danio rerio) and sponge (Amphimedon queenslandica), confirming the purified enzyme was a prolyl endopeptidase. Our present study for the first time reported the existence of a prolyl endopeptidase in fish muscle.